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  • Title: An up-regulation of renal alpha(2)A-adrenoceptors is associated with resistance to salt-induced hypertension in Sabra rats.
    Author: Khalid M, Giudicelli Y, Dausse JP.
    Journal: J Pharmacol Exp Ther; 2001 Dec; 299(3):928-33. PubMed ID: 11714878.
    Abstract:
    This study investigates the incidence of high-salt diet in blood pressures, renal alpha(2)-adrenoceptor subtypes distribution, and gene expression in salt-sensitive (SBH) and salt-resistant (SBN) Sabra rats. Comparisons have been made between SBH and SBN rats submitted to a normal or a high-salt diet for 6 weeks. Only alpha(2)B-adrenoceptors are detected in kidneys of SBH rats, whatever the diet. In contrast, mRNA corresponding to alpha(2)A- and alpha(2)B-subtypes are found in this substrain. In these rats, high-salt diet increases blood pressures and up-regulates gene expression and density of only alpha(2)B-adrenoceptors. Inversely, alpha(2)A- and alpha(2)B-adrenoceptors and corresponding mRNA are found in kidneys of SBN rats. In these rats, a high-salt diet does not affect blood pressures but increases gene expression and densities of both alpha(2)A- and alpha(2)B-adrenoceptors. If the up-regulation of renal alpha(2)B-adrenoceptor subtypes is indicative of the hypertensive phenotype, the present study shows that this mechanism is also present in normotensive salt-resistant Sabra rats. In fact, the absence of alpha(2)A-adrenoceptors in SBH could be responsible for the lack of adequate receptor-mediated renal functions predisposing to salt-sensitivity and consequently the development of hypertension. Conversely, the presence of this receptor in SBN rats and its up-regulation could be protective change against the increase of alpha(2)B-adrenoceptors induced by the salt overload and could consequently be responsible for the resistance to salt-induced hypertension.
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